System and method for managing service and non-service related activities associated with a waste collection, disposal and/or recycling vehicle

ABSTRACT

Systems and methods are provided for using video/still images captured by continuously recording optical sensors mounted on waste collection vehicles used in in the waste collection, disposal and recycling industry for operational and customer service related purposes. Optical sensors are integrated into the in-cab monitor as well as the onboard computer, digital video recorder and other external devices.

RELATED APPLICATIONS

This application is a continuation application and claims the benefit, and priority benefit, of U.S. patent application Ser. No. 17/479,106, filed Sep. 20, 2021, which is a continuation application and claims the benefit, and priority benefit, of U.S. patent application Ser. No. 17/144,027, filed Jan. 7, 2021, now issued as U.S. Pat. No. 11,128,841, which is a continuation application of, and claims the benefit and priority benefit, of U.S. patent application Ser. No. 16/920,037, filed Jul. 2, 2020, now issued as U.S. Pat. No. 10,911,726, which is a continuation application of, and claims the benefit and priority benefit, of U.S. patent application Ser. No. 16/809,335, filed Mar. 4, 2020, now issued as U.S. Pat. No. 10,750,134, which is a continuation application of, and claims the benefit and priority benefit, of U.S. patent application Ser. No. 16/243,257, filed Jan. 9, 2019, now issued as U.S. Pat. No. 10,594,991, which claims the benefit and priority benefit, of U.S. Provisional Patent Application Ser. No. 62/615,360, filed Jan. 9, 2018, the contents of which are incorporated by reference herein in their entirety.

BACKGROUND Field of the Invention

The presently disclosed subject matter relates to managing service and non-service related activities associated with a waste collection, disposal or recycling vehicle.

Description of the Related Art

Waste service vehicles (as well as waste container delivery vehicles) used in the waste collection, disposal and recycling industry often have on-board computers, location devices and interior and exterior safety and non-safety related cameras installed on the exterior and interior thereof. These systems provide field managers with limited data related to the waste service vehicle, location of the waste service vehicle, waste service confirmation, customer service issues, service routing issues, customer site information and safety issues and concerns.

Commercial, Residential, Industrial (roll-off services) and Container Delivery waste service providers typically have assigned waste service routes for management of municipal solid waste (MSW, waste, trash or traditional garbage), recycling (residential curbside source separated or single stream) organics (source separated residential green waste and source separated residential food waste and commercial food waste) and commercial recycling (source separated dry waste including cardboard, metals, polymers, paper, other fibers, glass, woods and other inerts, etc.) for each of the waste service provider customers whether the customers are in a competitive subscription open market pursuant to a service contract/agreement or within an exclusive or non-exclusive municipal franchise system. On occasion, waste services may be provided on an ad-hoc basis resulting from On-Call waste services or instances where services are required to be provided off-route because of a missed-pickup or emergency where the customer requires immediate service, etc.

Improvements in this field of technology are desired.

SUMMARY

A system for managing waste service activities and nonservice activities outside of the waste servicing collection vehicle is provided which can include one or more of: a waste vehicle equipped with an onboard board computer (OBC) and digital video recorder (DVR); a waste vehicle equipped with one or more optical sensors; triangulation of customer location for commercial, residential and industrial collections using an OBC linked to GPS, on-board DVR linked to GPS and other off-the-shelf mapping geo-coding applications to establish latitude/longitude for each customer container, bin, cart and box; one or more optical sensors configured to capture continuous video recordings from the time the waste collection truck driver commences the DOT pre-trip inspection at the facility location until the collection waste truck driver returns to the facility location and performs the DOT post-trip inspection; one or more optical sensors configured to the OBC, DVR and back office hardware and software system (“System”); one or more optical sensors that, while configured to the OBC, DVR & System, are likewise configured to a signal or signals emanating from electronic or mechanical device on the truck to include, but not limited to proximity switches, limit switches, mechanical sensors, electronic control module (ECM), programmable logic computer (PLC), arms, hoppers and/or blades and such other vehicle devices (hereinafter referred to as “Devices”); one or more optical sensors that, while configured to the OBC, DVR & System, are likewise configured to vehicle movement including acceleration, deceleration, g-force, stopping and starting (hereinafter referred to as “Vehicle Movement”); one or more optical sensors that, while configured to the OBC, DVR & System, are likewise configured to a driver initiated triggering event (hereinafter referred to as “Driver Initiated Event”); one or more optical sensors that, while configured to the OBC, DVR & System, are likewise configured to an external or outside of the vehicle initiated triggering event (hereinafter referred to as “External Initiated Event”); and one or more of Devices, Vehicle Movement, Driver Initiated Events, and External Initiated Events (hereinafter referred to as (“Triggering Events”) that are configured to the OBC and DVR with the Triggering Events causing one or more images or video segments to be captured on the continuous video recording (“Chapters”) resulting in a Still Image or up to 60 second Video Clip assigned to one or more Optical Sensors, and wherein such Chapters are configured to be displayed on a Portal for review and are available in sequential order based on Date, Time and Truck ID.

A method of linking Company and Customer information including Customer container/bin/cart/box location to Chapters is also provided which can include one or more of: each of the Company information including, but not limited to, Business Unit/Site, Truck ID, Company Code and Route ID are downloaded into the OBC; each of the Customer locations including locations of the container/bin/cart/box are assigned a latitude/longitude and downloaded into the OBC; the OBC contains Customer information including, but not limited to Customer ID, Customer name, Customer address, Customer service levels, Franchise name/Open Market with the Customer information likewise link to the Customer location; the OBC likewise contains service requirements assigned to the Customer and waste collection municipal franchise system; and resulting Chapters created from the continuous video recording through Triggering Events are linked/connected to the Company and Customer with each Chapter containing Customer Name, Customer Address, Service Level, Sub-Line of Business, Route ID, Customer Account Number, Franchise Name/Open Market, Service Time and Service Date.

A method of viewing Company information, Customer information and Chapter developed from Triggering Events through the Optical Sensor(s) stored on the OBC and DVR within an Event to Review Portal or Display is also provided which can include one or more of: a visual display of the Still Image and/or up to 60-second Video Clip loaded into Events to Review Portal viewable by Use Case and then Business Unit and Truck ID; the visual display of the Still Image and/or up to 60-second Video Clip with Customer Name, Customer Address, Service Level, Sub-Line of Business, Route ID, Customer Account Number, Franchise Name/Open Market, Service Time and Service Date below the Still Image and/or Video Clip; the ability for the end-user to select an Image aligned to a Use-Case resulting in a red-box highlighting the Image; the ability for the end-user to send the Image via web-address, email and/or text to the User's various departments (e.g. Customer Service, Billing, Operations, etc.) and to the Customer; and the ability for the end-user to Submit the highlighted image to an Advance Report module for use by the Company.

A method for reviewing Use Cases resulting from Chapters and such other waste service activities and nonservice activities outside of the waste servicing collection vehicle is also provided which can include one or more of: selecting Use-Cases from the Events to Review portal; determining if Images meet the criteria under each of the Use-Cases; and submitting the selected Chapter for further review within Advanced Reports.

A method for viewing Advanced Reports and such other Reports resulting from Images from Triggering Events being Submitted from the Events to Review Portal is also provided which can include one or more of: a series of selected Images by the end-user from the Events to Review Portal images being selected; selected Images being available for further review in the Advanced Reporting screen; selected Images in the Advanced Reporting screen being sent to Customer Service, Billing and Operations; and selected Images in the Advanced Reporting screen being sent to Customers via US Mail, web-address, email and/or text.

A system is also provided for managing service activities performed by a waste service vehicle, wherein the system can include: an optical sensor disposed on-board the waste service vehicle and configured to capture a continuous video recording of an area outside of the cab of the waste service vehicle, wherein the continuous video recording is captured during the entirety of a service operations period for the waste service vehicle; a recording device disposed on-board the waste servicing vehicle and configured to store the continuous video recording from the optical sensor; a computing device disposed on-board the waste service vehicle and configured to identify a physical location of a waste service customer; and a central computing device that is not on-board the waste service vehicle and is operatively linked to the optical sensor, recording device and computing device; wherein, upon the occurrence of a pre-defined triggering event, the central computing device is configured to capture a chapter from the continuous video recording, and the central computing device is configured to display the chapter on an electronic viewing portal in association with a visual indication of the physical location of the waste service customer and one or more of date, time, and an identification number for the waste service vehicle. In certain aspects, the pre-defined triggering event comprises one or more of: signal or signals emanating from an electronic or mechanical device on the waste service vehicle, wherein the electronic or mechanical device is one or more of a proximity switch, a limit switch, a mechanical sensor, an electronic control module, a programmable logic computer, an arm, a hopper, a blade or a waste service vehicle device; a movement of the waste service vehicle, wherein the movement comprises acceleration, deceleration, g-force, stopping or starting; a driver initiated triggering event; and a triggering event that is initiated external to or outside of the vehicle. In certain aspects, the service operations period for the waste service vehicle begins when a driver commences an inspection of the vehicle at a facility location prior to performing one or more service activities, and ends when the driver performs an inspection of the waste service vehicle after performing the one or more service activities. In certain aspects, the step of identifying a physical location of a waste service customer during the service operations period comprises identifying a location for one or more of commercial, residential or industrial collections using a GPS linked to the onboard computer and to the on-board recording device to establish latitude and/or longitude for one or more customer waste containers. In certain aspects, the chapter that is captured from the continuous video recording comprises one or more of a still image or a video clip of 60 seconds or less. In certain aspects, the recording device on-board the waste servicing vehicle comprises a digital video recorder. In certain aspects, the on-board computer is configured to: store downloaded waste service company information comprising one or more of a waste site, a business unit, a truck identification number, a company code and a route identification number; store downloaded customer location information comprising latitude/longitude for one or more customer locations including locations of the waste container; and store downloaded customer identifying information comprising one or more of a customer identification number, a customer name, a customer address, one or more customer service levels, a franchise name, and a service requirement assigned to the customer and to a waste collection municipal franchise system; and the central computing device is configured to: link the customer identifying information to the customer location information, and link the chapters from the continuous video recording to one or more of the waste service company information, the customer identifying information, and the customer location information.

BRIEF DESCRIPTION OF THE DRAWINGS

A better understanding of the presently disclosed subject matter can be obtained when the following detailed description is considered in conjunction with the drawings and figures herein, wherein:

FIG. 1 is an example of optical camera placement on a waste service vehicle in accordance with an illustrative embodiment of the presently disclosed subject matter;

FIG. 2 is an example of an onboard computer and DVR configured to capture continuous video feeds from truck mounted optical sensors and capture service related and non-service related activity outside of the waste service vehicle in accordance with an illustrative embodiment of the presently disclosed subject matter;

FIG. 3 is an example of a method for using spatial (GPS) data to triangulate information provided by a driver's service confirmation on an onboard computer, truck's GPS enabled DVR, and geocoding of service address using traditional mapping software in accordance with an illustrative embodiment of the presently disclosed subject matter;

FIG. 4 is an example of a process for transmitting optical sensor video recordings from a waste service vehicle to a Cloud and having discreet Chapters or images available for review associated with Use Cases by auditors, operations, customer service or other end-users in accordance with illustrative embodiments of the presently disclosed subject matter;

FIG. 5 is an example of a screen where a Chapter (still image/video or image) is displayed on a monitor for an end-user to review in accordance with an illustrative embodiment of the presently disclosed subject matter;

FIG. 6 is an example of a listing of Source Data for the Event to Review display for a user in accordance with an illustrative embodiment of the presently disclosed subject matter;

FIGS. 7-9 are examples of screens where a variety of pre-defined Use Cases by Line of Business (Commercial, Residential and Industrial) can be displayed for a user in accordance with illustrative embodiments of the presently disclosed subject matter;

FIG. 10 is an example of a screen where a Chapter (still image/video or image) is displayed on a monitor for an end-user to review under the Use Case “Commercial Overloaded Container” in accordance with an illustrative embodiment of the presently disclosed subject matter;

FIG. 11 is an example of a screen where a Chapter (still image/video or image) is displayed on a monitor for an end-user to review under the Use Case “Commercial Open Lid” in accordance with an illustrative embodiment of the presently disclosed subject matter;

FIG. 12 is an example of a screen where a Chapter (still image/video or image) is displayed on a monitor for an end-user to review under the Use Case “Commercial PDA” in accordance with an illustrative embodiment of the presently disclosed subject matter;

FIG. 13 is an example of a screen where a Chapter (still image/video or image) is displayed on a monitor for an end-user to review under the Use Case “Commercial Service Level Audit” in accordance with an illustrative embodiment of the presently disclosed subject matter;

FIG. 14 is an example of a screen where a Chapter (still image/video or image) is displayed on a monitor for an end-user to review under the Use Case “Commercial Damaged Containers” in accordance with an illustrative embodiment of the presently disclosed subject matter;

FIG. 15 is an example of a screen where a Chapter (still image/video or image) is displayed on a monitor for an end-user to review under the Use Case “Commercial Franchise Requirements” in accordance with an illustrative embodiment of the presently disclosed subject matter;

FIG. 16 is an example of a screen where a Chapter (still image/video or image) is displayed on a monitor for an end-user to review under the Use Case “Proactive Commercial Customer Notifications” in accordance with an illustrative embodiment of the presently disclosed subject matter;

FIG. 17 is an example of a screen where a Chapter (still image/video or image) is displayed on a monitor for an end-user to review under the Use Case “Proactive Commercial Driver/Ops Notifications” in accordance with an illustrative embodiment of the presently disclosed subject matter;

FIG. 18 is an example of a screen where a Chapter (still image/video or image) is displayed on a monitor for an end-user to review under the Use Case “Commercial Contamination of Recycling and Organics” in accordance with an illustrative embodiment of the presently disclosed subject matter;

FIG. 19 is an example of a screen where a Chapter (still image/video or image) is displayed on a monitor for an end-user to review under the Use Case “Commercial Open-Market Sales Opportunity” in accordance with an illustrative embodiment of the presently disclosed subject matter;

FIG. 20 is an example of a screen where a Chapter (still image/video or image) is displayed on a monitor for an end-user to review under the Use Case “Commercial Franchise Infringement (Poaching)” in accordance with an illustrative embodiment of the presently disclosed subject matter;

FIG. 21 is an example of a screen where a Chapter (still image/video or image) is displayed on a monitor for an end-user to review under the Use Case “Commercial Ancillary Fee Audit” in accordance with an illustrative embodiment of the presently disclosed subject matter;

FIG. 22 is an example of a screen where a Chapter (still image/video or image) is displayed on a monitor for an end-user to review under the Use Case “Commercial Dangerous Stops” in accordance with an illustrative embodiment of the presently disclosed subject matter;

FIG. 23 is an example of a screen where a Chapter (still image/video or image) is displayed on a monitor for an end-user to review under the Use Case “Commercial Property Damage” in accordance with an illustrative embodiment of the presently disclosed subject matter;

FIG. 24 is an example of a screen where a Chapter (still image/video or image) is displayed on a monitor for an end-user to review under the Use Case “HOC-Haul or Call (Container Unserviceable)” in accordance with an illustrative embodiment of the presently disclosed subject matter;

FIG. 25 is an example of a screen where a Chapter (still image/video or image) is displayed on a monitor for an end-user to review under the Use Case “Commercial Service Confirmation-Driver Initiated” in accordance with an illustrative embodiment of the presently disclosed subject matter;

FIG. 26 is an example of a screen where a Chapter (still image/video or image) is displayed on a monitor for an end-user to review under the Use Case “Commercial Bin Delivery-New Customer” in accordance with an illustrative embodiment of the presently disclosed subject matter;

FIG. 27 is an example of a screen where a Chapter (still image/video or image) is displayed on a monitor for an end-user to review under the Use Case “Commercial Bin Delivery-Existing Customer” in accordance with an illustrative embodiment of the presently disclosed subject matter;

FIG. 28 is an example of a screen where a Chapter (still image/video or image) is displayed on a monitor for an end-user to review under the Use Case “Residential Overloaded Container” in accordance with an illustrative embodiment of the presently disclosed subject matter;

FIG. 29 is an example of a screen where a Chapter (still image/video or image) is displayed on a monitor for an end-user to review under the Use Case “Residential PDA” in accordance with an illustrative embodiment of the presently disclosed subject matter;

FIG. 30 is an example of a screen where a Chapter (still image/video or image) is displayed on a monitor for an end-user to review under the Use Case “Residential Service Level Audit” in accordance with an illustrative embodiment of the presently disclosed subject matter;

FIG. 31 is an example of a screen where a Chapter (still image/video or image) is displayed on a monitor for an end-user to review under the Use Case “Residential Open Lid” in accordance with an illustrative embodiment of the presently disclosed subject matter;

FIG. 32 is an example of a screen where a Chapter (still image/video or image) is displayed on a monitor for an end-user to review under the Use Case “Residential Damaged Containers” in accordance with an illustrative embodiment of the presently disclosed subject matter;

FIG. 33 is an example of a screen where a Chapter (still image/video or image) is displayed on a monitor for an end-user to review under the Use Case “Residential Franchise Requirements” in accordance with an illustrative embodiment of the presently disclosed subject matter;

FIG. 34 is an example of a screen where a Chapter (still image/video or image) is displayed on a monitor for an end-user to review under the Use Case “Residential Extra Bags-Extra Service” in accordance with an illustrative embodiment of the presently disclosed subject matter;

FIG. 35 is an example of a screen where a Chapter (still image/video or image) is displayed on a monitor for an end-user to review under the Use Case “Residential Proactive Customer Notification” in accordance with an illustrative embodiment of the presently disclosed subject matter;

FIG. 36 is an example of a screen where a Chapter (still image/video or image) is displayed on a monitor for an end-user to review under the Use Case “Proactive Residential Driver/Ops Notifications” in accordance with an illustrative embodiment of the presently disclosed subject matter;

FIG. 37 is an example of a screens where a Chapter (still image/video or image) is displayed on a monitor for an end-user to review under the Use Case “Residential Service Confirmation-Driver Initiated” in accordance with an illustrative embodiment of the presently disclosed subject matter;

FIG. 38 is an example of a screen where a Chapter (still image/video or image) is displayed on a monitor for an end-user to review under the Use Case “Residential NOT-OUT-Driver Initiated” in accordance with an illustrative embodiment of the presently disclosed subject matter;

FIG. 39 is an example of a screen where a Chapter (still image/video or image) is displayed on a monitor for an end-user to review under the Use Case “Residential Container Delivery-New Customer” in accordance with an illustrative embodiment of the presently disclosed subject matter;

FIG. 40 is an example of a screen where a Chapter (still image/video or image) is displayed on a monitor for an end-user to review under the Use Case “Residential Container Delivery-Existing Customer” in accordance with an illustrative embodiment of the presently disclosed subject matter;

FIG. 41 is an example of a screen where a Chapter (still image/video or image) is displayed on a monitor for an end-user to review under the Use Case “Residential Bulky Collection (Flatbeds & Rear Loaders)” in accordance with an illustrative embodiment of the presently disclosed subject matter;

FIG. 42 is an example of a screen where a Chapter (still image/video or image) is displayed on a monitor for an end-user to review under the Use Case “Residential Contamination of Single Stream Recycling and Organics” in accordance with an illustrative embodiment of the presently disclosed subject matter;

FIG. 43 is an example of a screen where a Chapter (still image/video or image) is displayed on a monitor for an end-user to review under the Use Case “Residential Ancillary Fee Audit” in accordance with an illustrative embodiment of the presently disclosed subject matter;

FIG. 44 is an example of a screen where a Chapter (still image/video or image) is displayed on a monitor for an end-user to review under the Use Case “Residential Dangerous Stops” in accordance with an illustrative embodiment of the presently disclosed subject matter;

FIG. 45 is an example of a screen where a Chapter (still image/video or image) is displayed on a monitor for an end-user to review under the Use Case “Residential Property Damage” in accordance with an illustrative embodiment of the presently disclosed subject matter;

FIG. 46 is an example of a report screen with the notation for each Chapter, “Missing Picture”, in accordance with an illustrative embodiment of the presently disclosed subject matter;

FIG. 47 is an example of a report screen within an Events to Review portal which provides a process to monitor unavailable images (video and still) under the Use Case “No Image-Heath Assessment and Real-Time Monitoring of Cameras” in accordance with an illustrative embodiment of the presently disclosed subject matter;

FIG. 48 illustrates a flowchart-decision process for reviewing Chapters within an Events to Review portal in accordance with an illustrative embodiment of the presently disclosed subject matter;

FIGS. 49-55 illustrate examples of Advance Reports in accordance with illustrative embodiments of the presently disclosed subject matter;

FIG. 56 illustrates an example of a method of managing service and non-service related activities associated with a waste collection, disposal and/or recycling vehicle including continuous monitoring and recording of a vehicle in accordance with an illustrative embodiment of the presently disclosed subject matter; and

FIG. 57 illustrates various examples of use case bundles in accordance with illustrative embodiments of the presently disclosed subject matter.

While the presently disclosed subject matter will be described in connection with the preferred embodiment, it will be understood that it is not intended to limit the presently disclosed subject matter to that embodiment. On the contrary, it is intended to cover all alternatives, modifications, and equivalents, as may be included within the spirit and the scope of the presently disclosed subject matter as defined by the appended claims.

DETAILED DESCRIPTION

The presently disclosed subject matter relates generally to systems and methods for using video/still images captured by one or more continuously recording optical sensors mounted on waste collection vehicles used in the waste collection, disposal and recycling industry for operational and customer service related purposes. Optical sensors can be integrated into the in-cab monitor as well as the onboard computer, digital video recorder and other external devices. In certain illustrative embodiments, it is desired to virtually connect (in real-time) the waste service provider to the waste service vehicle and ultimately to the waste service customer being serviced for management of waste collection, disposal and recycling in immediate real-time or at a date in the future. The disclosed system is directed to overcoming the issues, problems and opportunities described herein and/or other issues and problems of the prior art.

In certain illustrative embodiments, a system is disclosed for managing some or all service related and nonservice related activities outside of the waste servicing vehicle. The system has a location device configured to determine the location of the service vehicle always while the service vehicle is inactive, in motion and operating and performing service related and nonservice related activities. The service vehicle has optical sensors and such other sensors installed throughout the service vehicle including, but not limited to, high definition cameras, monitors and such other sensors mounted to the front (interior and exterior of the cab), exterior right side, exterior left side, exterior rear and exterior/interior hopper area of the service vehicle. Optical sensors and other sensors are continuously recording all activities from each of the optical sensors with the images and data being stored on an onboard computer and recording device (such as a digital video recorder) and being transmitted and stored remotely away from the waste service vehicle. The onboard computer and recording device are configured to detect motion, g-force, speed, vehicle deceleration, distance from assigned points within a service area and engagement of the service vehicle equipment including service arms resulting in container and bin lifts, engagement of other vehicle mechanical devices and all such other services being performed by the service vehicle. Additionally, the onboard computer and recording device are configured to detect signals from external devices.

In certain illustrative embodiments, the onboard computer and recording device are configured to create notations, cyphers, codes, or chapters (hereinafter referred to as “Chapter(s)”) resulting from one or more optical sensors, while configured to the Onboard Computer (OBC), Digital Video Recorder (DVR) & User's remote back-office hardware and software (System), and are likewise configured to receive a signal or signals emanating from electronic or mechanical devices on the waste collection truck including but not limited to:

(a) proximity switches;

(b) limit switches;

(c) electronic control module (ECM);

(d) programmable logic computer (PLC);

(e) vehicle arms, hoppers and blades; and/or

(f) such other vehicle devices (hereinafter referred to as “Devices”).

In certain illustrative embodiments, the optical sensor takes the videos and sends to the DVR and OBC. The OBC and DVR are configured in such a way that Triggering Events create Chapters (Videos and Still Images), which are stored on a back office system and made available for view through Advanced Reports and other Reports in a viewing portal.

In certain illustrative embodiments, the onboard computer and recording device are configured to create Chapters resulting from one or more optical sensors, while configured to the OBC, DVR & System, and are likewise configured to detect vehicle movement including but not limited to:

(a) waste collection vehicle acceleration;

(b) waste collection vehicle deceleration;

(c) measuring g-force; and

(d) stopping and starting of the waste collection vehicle (hereinafter referred to as “Vehicle Movement”).

In certain illustrative embodiments, the onboard computer and recording device are configured to create Chapters resulting from one or more optical sensors, while configured to the OBC, DVR & System, and are likewise configured to detect a waste collection vehicle driver initiated event (hereinafter referred to as “Driver Initiated Event”).

In certain illustrative embodiments, the onboard computer and recording device are configured to create Chapters resulting from one or more optical sensors, while configured to the OBC, DVR & System, and are likewise configured to detect an external or outside of the waste collection vehicle initiated event (hereinafter referred to as “External Initiated Event”).

In certain illustrative embodiments, one or more Devices, Vehicle Movements, Driver Initiated Events and External Initiated Event (hereinafter collectively referred to as “Triggering Events”) are configured to the OBC and DVR with Triggering Events causing Chapters to be captured on the continuous video recording resulting in a Still Image or up to 60-second Video Clip assigned to one or more Optical Sensors.

Triggering Events resulting in Chapters on the continuous optical sensor recordings may be stored on an onboard vehicle computer and/or digital video recorder and transmitted to remote storage device(s).

The Chapters on the continuous optical sensor recordings and such other sensors are configured to provide immediate and/or passive Still Images and immediate and/or passive limited Video-Clip images for remote viewing and auditing for all service related and nonservice related activities from the waste service vehicles.

In certain illustrative embodiments, the most efficient and optimal method for providing waste services is through routed waste collection optimizing route density and service productivity. Other efficiencies and productivity are gained, service costs are reduced, optimal waste services are provided and waste service company margins are improved when waste service customer are managed pursuant to service expectations designated by the waste service provider and/or the municipal franchise system. These service expectations include, but are not limited to:

(a) containerized waste and ensuring waste is below the lid of the container/bin,

(b) ensuring waste container lids are closed to prevent collection of precipitation within in the waste container/bin,

(c) ensuring containers/bins are accessible at the time of service and are not blocked, locked, enclosed or otherwise unavailable for service,

(d) ensuring the containers and bins are positioned correctly to ensure optimal and safe servicing,

(e) ensuring multiple containers/bins at a customer location are adequately separated to allow semi-automated and automated waste service vehicles optimal and safe access to each container/bin,

(f) ensuring damaged containers/bins are identified and swapped, repaired and/or removed, and

(g) ensuring customers adhere to requirements regarding recycling and abate contaminating recycling containers/bins with prohibited waste and/or non-recycling materials.

Other efficiencies and productivity are gained, service costs are reduced, optimal waste services are provided and waste service company margins are improved when waste service companies effectively manage and service their service routes, service stops and Customers. Effectively servicing and managing routes, stops and Customers can include, but is not limited to:

(a) performing service level audits to ensure Customers are being charged correctly for the container size, quantity and frequency of service,

(b) performing ancillary fee audits to ensure Customers are being charged correctly for requested and franchise services in addition to traditional waste collection services, which may include but is not limited to backyard service, enclosures, push-pull services, valet services, locks, etc.,

(c) proactively notifying Customers of service related issues including, but not limited to, overloaded containers/bins, open lids, blocked containers/bins, inaccessible containers/bins, litter on the ground, waste bags and collection items outside the container/bin, prohibited items in the containers/bins, etc.,

(d) ensuring sites and service addresses receiving waste services are in fact Customers of the waste service company,

(e) providing immediate service confirmation to include, but not limited to, the waste service company's Customer Service department, the waste service company's District/Site Operations, the waste service company's Dispatch Center and the waste service company's Customer via US Mail, email, text, wed-address and such other communications efforts,

(f) ensuring the waste service company is achieving regulatory and municipal franchise requirements regarding containers/bins including, but not limited to, waste service company and/or municipal signage, stickering, placement, logos, size notation, phone numbers and bin/container condition, etc.,

(g) performing site audits to ensure competitors are not violating franchise requirements/encroaching within the franchise for exclusive waste service collection, disposal and recycling,

(h) auditing hard to service, dangerous stops and claims of property damage at Customer service locations,

(i) immediately notifying and providing visual evidence of a container/bin not being out (Not-Outs) to include, but not limited to, the waste service company's Customer Service department, the waste service company's District/Site Operations, the waste service company's Dispatch Center and the waste service company's Customer via US Mail, email, text, web-address and such other communications efforts,

(j) providing immediate or passive visual evidence of a container/bin being delivered, repaired, swapped and/or removed to include, but not limited to, the waste service company's Customer Service department, the waste service company's District/Site Operations, the waste service company's Dispatch Center and the waste service company's Customer via US Mail, email, text, web-address and such other communications efforts,

(k) documenting and providing visual evidence of Bulky Waste pickups to include, but not limited to, the waste service company's Customer Service department, the waste service company's District/Site Operations, the waste service company's Dispatch Center and the waste service company's Customer via US Mail, email, text, web-address and such other communications efforts, and

(l) providing proactive notification to waste service company drivers and operations related to service failure to include, but not limited to, missed-pickup, litter, container misalignment/carts askew, carts tipped over and property damage, etc.

In certain illustrative embodiments, truck mounted cameras can be used to capture video, still images and/or monitoring from a monitor display inside the waste service vehicle. FIG. 1 is a diagram of typical camera placement on waste service vehicles to include (without limitation) Front Load Commercial, Rear Load Commercial, Rear Load Residential, Side Load Residential, Front Load Residential, Roll-Off and Residential and Commercial Container Delivery.

For example, in certain illustrative embodiments, OBCs and DVRs are installed in the waste service vehicle with the OBC and DVR configured to detect vehicle location at all times, motion, g-force, speed, vehicle deceleration, distance from assigned points within a service area and engagement of the service vehicle equipment including service arms resulting in container and bin lifts, engagement of other vehicle mechanical devices and all such other services being performed by the service vehicle.

In FIG. 2 , the OBC and DVR are configured to capture continuous video feeds from each of the truck mounted optical sensors and further designed to capture all service related and non-service related activity outside of the waste service vehicle. The DVR can be installed in the service vehicle. The OBCs can be continuous recording. All service related and non-service related activities can be captured. Images are stored on the OBC, DVR and in the Cloud via cellular and/or other wireless transmissions for remote storage and viewing. Images are available for review in immediate real-time or passive review later by an end-user.

For example, in certain illustrative embodiments, continuous video feeds from each of the optical sensor may be used to review certain service related and non-service related activities. Certain predefined Triggering Events can result in a Chapter (defined hereinabove) within the continuous optical sensor recordings.

In certain illustrative embodiments, waste service vehicle and/or optical sensor data can be linked (i) to a specific customer (and associated customer data such as account number, service address, service level, etc.) and/or (ii) to route/location/destination specific information. For example, with respect to customer linking, service confirmations can be collected at a point of service. With respect to route event linking, a service can be reviewed for the purposes of determining contamination with the recycling stream by capturing video/camera images from the hopper camera. The presently disclosed system and method can connect one, more than one or every service and non-service related event to an actual customer or event on the waste service route. This step can be performed manually by a human operator, or it can be an automated process.

As referenced in FIG. 3 , in certain illustrative embodiments, the method can start with using spatial (GPS) data to triangulate the information provided by the driver's service confirmation on the OBC, truck's GPS enabled DVR, and geocoding of service address using traditional mapping software (e.g. Google™ maps, parcel data analysis, reverse geo-coding, reverse address look-up, etc.). Additional methods can be utilized for customer and container identification and recognition.

In certain illustrative embodiments, the presently disclosed systems and methods provide functionality for end-user and such other user designees to utilize video and still images from one or more vehicle cameras for operational purposes relating to servicing and managing waste collection customers as well as non-service related activities.

For example, multiple user vehicle mounted optical sensors can be used to capture video and still images that are prompted by specific vehicle movement and actions (e.g., movement of the vehicle or movement of the mechanical arm of the truck and engagement of the hopper) and/or prompted by manual manipulation by the driver resulting in the optical sensor(s) capturing specific footage related to customer services and user defined “Use Cases” (again, as further described below).

Also, multiple user vehicle mounted optical sensors can be used to capture video and still images that link videos and still images associated with user's latitude/longitude with customers' containers and bin location and latitude/longitude resulting from user's defined triggering event with user customer information being matched or verified against videos and still images generated through digital video recording.

For example, in certain illustrative embodiments, waste vehicle optical sensors and video recordings and still images are associated with specific user-defined scenarios or “Use Cases” (e.g., overloaded waste containers, contamination of waste containers, waste container maintenance, open lids, identifying waste collection infringement with a municipal franchise system, etc.). Use Cases are further defined in greater detail below. However, in certain illustrative embodiments, the recordings can be indifferent as to the Use Cases and are configured to be used for any one or all user-defined Use Cases and future user-defined Use Cases.

FIG. 4 demonstrates a process for transmitting optical sensor video recordings from the waste service vehicle to the Cloud and having discreet Chapters or images available for review associated with Use Cases by auditors, operations, customer service or other end-users. Upon reviewing designated Chapters in the form of still images and video clips, end-users may forward the findings to User's Billing, Operations, Customer Service and/or the Customer. Optical Sensor recordings can be stored on the DVR and transmitted to the Cloud. Auditors, Operations and others can review Chapters within an optical sensor recording associated with a designated Use Case, and the findings are sent on to Customer Service, Billing and the Customer.

FIG. 5 includes sample screenshots for a computer program/software product where the video/still images are linked to specific customer information (name, address, etc.) in the user's customer database with the information being displayed next to the video/still images (see, e.g., FIG. 5 ,—“ABC Packaging, 100 Apple Way, Reno Nev . . . ”).

By way of further explanation, FIG. 5 includes a sample screenshot where the Chapter (still image/video or image) is displayed on a monitor for the end-user to review. The Chapters or images can be displayed in sequential order based on Triggering Events resulting in a Chapter being notated on the continuous optical sensor recordings. Effectively, the end-user can view still images of customers' services in the sequential order in which the waste service route is being operated and performed.

Each discreet Chapter or image can contain one or more of the following information items displayed in an Events to Review and Service Events Portal and Display with one or more of the qualifying Naming Conventions (drop down menus for end-users) allowing the end-user to select by a variety of options to review Chapters or images associated with service related and non-service related activities:

(a) Use Case being reviewed,

(b) User Waste Service Company Name,

(c) User Waste Service Site ID, Business Unit

(d) User Truck/Vehicle ID

(e) User Customer Name,

(f) User Customer Address,

(g) User Customer Service Levels,

(h) User Line of Business (commercial, residential, industrial),

(i) User Sub-Line of Business (MSW, recycling, organics),

(j) User Route ID,

(k) User Customer Account Number,

(l) User Designation of Municipal Franchise or Open Market,

(m) User Service Date; and,

(n) User Service Time.

The Source Data for the Event to Review is depicted in FIG. 6 and results from pulling information from the Optical Sensors, OBC, DVR, other Mapping & Geo-Coding features, Routing & Logistics systems and/or Customer information and User's System.

Also, multiple user vehicle mounted optical sensors can be used to capture video and still image Chapters that associated with specific scenarios or “Use Cases” and related software functionality, user camera interface and user customers. The functionality of the process includes, but is not limited to the following:

(a) Videos and still images Chapters are automatically available and associated by Triggering Events (e.g. vehicle movement, servicing or attempting service, engaging arm, tipper, hopper, etc. at commercial, residential and industrial stops;

(b) Video and still image Chapters either viewed in real-time or later time and date for user defined Use Cases and related service and customer audits;

(c) Ability to view actual user customer information including Customer ID, Customer Name, Service Address, Business Unit, Company Code, Truck ID, Route ID, Service Levels and Franchise Name associated with each video and still image Chapters on a display screen (e.g., Events to Review);

(d) Ability to view time-stamp and date stamp with each video and still image Chapters on a display screen (e.g., Events to Review) and such other portals within a user system;

(e) Ability to generate still images Chapters within 6′-8′ in front of a commercial waste bin prior to service or such other distances, angles and viewpoints as defined by the end-user;

(f) Ability to generate still image Chapters 6′-8′ adjacent to a residential cart prior to service or such other distances, angles and viewpoints as defined by the end-user;

(g) Ability to generate still image Chapters with a full view of all containers, extra pickups and bulky pickups being serviced at residential stops, multi-family stops, commercial stops and industrial stops;

(h) Ability to generate still image Chapters with a full view of the roll-off containers being serviced at industrial stops;

(i) Ability to generate still image Chapters of all container deliveries, swaps and removals at commercial, residential and industrial customers;

(j) Ability to capture up to 60 seconds of video Chapters of sources separated organics and recycling being deposited into the vehicles' hopper; and

(k) Ability to capture up to 60 seconds of video Chapters associated with all activities at the customers' service address.

Also, multiple user vehicle mounted optical sensors can be used to capture video and still images that are available for view and auditing in the display screen (e.g., Events to Review Screen, Service Events Screen, Advanced Reports) and such other portals and screens within the system as defined by user.

Also, multiple user vehicle optical sensors can be used to capture video and still images that, with limited driver interface with the OBC, DVR and user optical sensors, can capture one or more of the following:

(a) Not-Out: The ability to capture a still image and/or video of a customer's container not being available for service or “Not-Out” and send through the system to user-Customer Service, user operations and/or user's Customer via US Mail, web address, email and text;

(b) HOC's: The ability to capture a still image and/or video of a customer's container being unavailable for service due to the container being locked, blocked, behind a locked gate, containing prohibitive waste, etc. and send through the system to user-Customer Service, user-operations and/or user's-Customer via US Mail, web address, email and text;

(c) Container/Bin Management: Residential, Commercial and Industrial container bin deliveries, swaps and removals and send through the system to user-Customer Service, user-operations and/or user's-Customer via US Mail, web address, email and text;

(d) Pings: The ability to specifically ping a service location to establish latitude/longitude and cross-reference against User's latitude/longitude notation within User's routing and logistic system to verify and notate service location and bin or container location; and,

(e) Other limited driver interface as defined by User.

Also, multiple user vehicle mounted optical sensors can be used to capture video and still images that are available for Customer Service, Operations, Dispatchers and such other user designees to view a live video feed when there is a potential service issue and address the issue with the driver and customer, as needed.

In certain illustrative embodiments, the system and method provides for a variety of pre-defined Use Cases by Line of Business (Commercial, Residential and Industrial) resulting in the end-user being able to review videos and still images, identify, tag (with a red box or other tagging means) and submit to Advanced Reports or such other reporting methods instances relating to one or more of the following occurrences described in FIGS. 7-9 .

Management and auditing of Use Cases are more fully explained hereinbelow (such explanations are not all inclusive).

FIG. 10 , Picture A includes a sample screenshot where the Chapter (still image/video or image) is displayed on a monitor for the end-user to review under the Use Case “Commercial Overloaded Container”. Picture B in FIG. 10 depicts the determination by the end-user that the container/bin is overloaded. As a result, the image is tagged resulting in a highlighted “red-box” (or other designation) around the perimeter of the image. For example, selecting the image for Overloaded Container results a highlighted “Red Box” with the image being sent to report Commercial overages. After reviewing images associated with a Use Case, the end-user “Submits” the image for action to include charging the customer for the overage, notifying the customer of the overage through a proactive warning and notification process and noting the overage incident on the customer's account.

FIG. 11 , Picture A includes a sample screenshot where the Chapter (still image/video or image) is displayed on a monitor for the end-user to review under the Use Case “Commercial Open Lid”. Picture B in FIG. 11 depicts the determination by the end-user that the commercial container/bin lid is “Open”. As a result, the image is tagged resulting in a highlighted “red-box” (or other designation) around the perimeter of the image. For example, proactive notice can be provided to Customer to close lids and charge a fee in jurisdictions allowing open lid fees to eliminate blight, illegal dumping and collection of water in commercial bins. After reviewing images associated with a Use Case, the end-user “Submits” the image for action to include notifying and/or charging the customer for an open lid and noting the open lid incident on the customer's account.

FIG. 12 , Picture A includes a sample screenshot where the Chapter (still image/video or image) is displayed on a monitor for the end-user to review under the Use Case “Commercial PDA”. The absence of customer information results in an exception report being created as a suspect account for Billing to review. If FEL Bin service appears in Commercial PDA Audit, this might result from a driver operating an independent FEL service or a customer set-up error by the waste service company.

FIG. 13 , Picture A includes a sample screenshot where the Chapter (still image/video or image) is displayed on a monitor for the end-user to review under the Use Case “Commercial Service Level Audit”. Picture B in FIG. 13 depicts the determination by the end-user that the customer is receiving service inconsistent with the customer information associated with Picture A. As a result, the image is tagged resulting in a highlighted “red-box” (or other designation) around the perimeter of the image. Because of highlighting the image, Drop-Down Menus allow the end-user to select the size and quality of commercial containers by sub-LOB (MSW, Recycling or Organics) at the service address. After reviewing images associated with the Use Case, the end-user “Submits” the image for action to include notifying Billing and the Customer of the service level discrepancy resulting in either an additional charge or refund.

FIG. 14 , Picture A includes a sample screenshot where the Chapter (still image/video or image) is displayed on a monitor for the end-user to review under the Use Case “Commercial Damaged Containers”. Picture B in FIG. 14 depicts the determination by the end-user that the container is damaged requiring repairs, swap or removal. As a result, the image is tagged resulting in a highlighted “red-box” (or other designation) around the perimeter of the image. Because of highlighting the image, Drop-Down Menus allow the end-user to select the container sub-LOB (MSW, Recycling, Organics) and noted damage including, but not limited to, broken lid, broken wheel/caster, sleeve damage, bottom rusted/leaking, graffiti, needs stickering, etc. After reviewing images associated with the Use Case, the end-user “Submits” the image for action to include notifying Operations and the Customer of the need for container repair scheduling.

FIG. 15 , Picture A includes a sample screenshot where the Chapter (still image/video or image) is displayed on a monitor for the end-user to review under the Use Case “Commercial Franchise Requirements”. Picture B in FIG. 15 depicts the determination by the end-user that the container does not meet certain franchise requirements. As a result, the image is tagged resulting in a highlighted “red-box” (or other designation) around the perimeter of the image. Because of highlighting the image, Drop-Down Menus allow the end-user to select the franchise requirement deficiencies including, but not limited to, signage/stickers, City designation, notices, container yardage, waste service company name and telephone number, etc. After reviewing images associated with the Use Case, the end-user “Submits” the image for action to include notifying Operations of the need to comply with franchise and regulatory requirements.

The images in FIG. 16 include sample screenshots where the Chapter (still image/video or image) is displayed on a monitor for the end-user to review under the Use Case “Proactive Commercial Customer Notifications”. The images in FIG. 16 depict the determination by the end-user that the customer service address has service related issues associated with open lids, litter, overages and blocked container. As a result, the image is tagged resulting in a highlighted “red-box” (or other designation) around the perimeter of the image. Because of highlighting the image, Drop-Down Menus allow the end-user to select the Proactive Customer Notifications. After reviewing images associated with the Use Case, the end-user “Submits” the image for action to include notifying the customer of the need to comply with waste service company's service requirements.

The images in FIG. 17 include sample screenshots where the Chapter (still image/video or image) is displayed on a monitor for the end-user to review under the Use Case “Proactive Commercial Driver/Ops Notifications”. The images in FIG. 17 depict the determination by the end-user that the customer service address has service failure related issues associated with the driver failing to close lids, close enclosures, little/blight, etc. As a result, the image is tagged resulting in a highlighted “red-box” (or other designation) around the perimeter of the image. Because of highlighting the image, Drop-Down Menus allow the end-user to select the Proactive Driver/Ops Notifications. After reviewing images associated with the Use Case, the end-user “Submits” the image for action to include notifying Operations of the need for the driver to comply with waste company's service requirements. The issue is designated with the driver, and an operations report is created and sent to the district for purposes of future driver coaching.

The images in FIG. 18 include sample screenshots where the Chapter (still image/video or image) is displayed on a monitor for the end-user to review under the Use Case “Commercial Contamination of Recycling and Organics”. After reviewing a certain length (in this case, 16 seconds) of video image in Video A-Hopper Camera Video Image, FIG. 18 depicts the determination by the end-user that the commercial customer has either contaminated its organics bin or recycling bin with prohibited waste. Picture B-Front Camera Still Image depicts the customer's service bin prior to service. As a result, the video and still image are tagged resulting in a highlighted “red-box” (or other designation) around the perimeter of the images. After reviewing images associated with the Use Case, the end-user “Submits” the video and still image for action to include notifying Operations, Billing and the Customer to reduce contamination and ensure compliance with waste company's service requirements.

The images in FIG. 19 include sample screenshots where the Chapter (still image/video or image) is displayed on a monitor for the end-user to review under the Use Case “Commercial Open-Market Sales Opportunity”. After reviewing 30-60 seconds of video image from the Front Camera depicted in Picture A, FIG. 19 depicts the determination by the end-user that there are open market sales opportunities and competitor containers within the waste company's service area and routes. As a result, the video and still image are tagged resulting in a highlighted “red-box” (or other designation) around the perimeter of the images. After reviewing images associated with the Use Case, the end-user “Submits” the video and still image for action to include notifying Sales and Operations to attract additional customers within the waste company's service area resulting in improved density and routing efficiencies.

The images in FIG. 20 include sample screenshots where the Chapter (still image/video or image) is displayed on a monitor for the end-user to review under the Use Case “Commercial Franchise Infringement (Poaching)”. After reviewing 30-60 seconds of video image from the Front Camera depicted in Picture A, FIG. 20 depicts the determination by the end-user that there are franchise violations and encroachment by competitors unauthorized to provide waste services within the municipal franchise system. As a result, the video and still image are tagged resulting in a highlighted “red-box” (or other designation) around the perimeter of the images. After reviewing images associated with the Use Case, the end-user “Submits” the video and still image for action to include notifying Operations, Sales and Legal to abate competitor franchise infringement.

The images in FIG. 21 include sample screenshots where the Chapter (still image/video or image) is displayed on a monitor for the end-user to review under the Use Case “Commercial Ancillary Fee Audit”. After reviewing some length (in this case, 30-60 seconds) of video image from the Front Camera depicted in Picture A, FIG. 21 depicts the determination by the end-user that there are ancillary services being provided to the waste company's customers without the customer being charged for ancillary services. As a result, the video and still image are tagged resulting in a highlighted “red-box” (or other designation) around the perimeter of the images. After reviewing images associated with the Use Case, the end-user “Submits” the video and still image for action to include notifying Billing and the Customer resulting in either an additional charge or refund.

The image in FIG. 22 is a sample screenshot where the Chapter (still image/video or image) is displayed on a monitor for the end-user to review under the Use Case “Commercial Dangerous Stops”. After reviewing some length (in this case, 30-60 seconds) of video image from the Front Camera depicted in Video A, FIG. 22 , depicts the determination by the end-user that there exist dangerous conditions within the customer's service location including, but not limited to: unsafe enclosures, low overhead wires, hard to service, unsafe backing, unsafe bin placement, etc. As a result, the video and still image are tagged resulting in a highlighted “red-box” (or other designation) around the perimeter of the images. After reviewing images associated with the Use Case, the end-user “Submits” the video and still image for action to include notifying Sales, Operations and the Customer to ensure the unsafe stop is corrected. Operations and Sales can work together to find safer servicing solutions regarding enclosures, overhead wires, hard to service, backing, bin placement, etc.

The image in FIG. 23 is a sample screenshot where the Chapter (still image/video or image) is displayed on a monitor for the end-user to review under the Use Case “Commercial Property Damage”. After reviewing some length (in this case, 30-60 seconds) of video image from the Front Camera depicted in Video A, FIG. 23 depicts the determination by the end-user that there servicing of the customer's bin/container resulted in property damage. As a result, the video and still image are tagged resulting in a highlighted “red-box” (or other designation) around the perimeter of the images. After reviewing images associated with the Use Case, the end-user “Submits” the video and still image for action to include notifying Operations, Safety, Risk Management and the Customer to ensure the property damage is corrected as well as determining causation on property damage claims.

The image in FIG. 24 is a sample screenshot where the Chapter (still image/video or image) is displayed on a monitor for the end-user to review under the Use Case “HOC-Haul or Call (Container Unserviceable)”. The HOC Use Case is initiated by waste vehicle driver because the container/bin deemed unserviceable. Thereafter, the end-user reviews some length (in this case, 30-60 seconds) of video image from the Front Camera depicted in Video A, FIG. 24 and confirms the determination that the container/bin is unserviceable. As a result, the video and still image are tagged resulting in a highlighted “red-box” (or other designation) around the perimeter of the images. After reviewing images associated with the Use Case, the end-user “Submits” the video and still image for action to include notifying Operations, Customer Service and the Customer to ensure the issues associated with the container/bin being unserviceable is corrected.

The image in FIG. 25 is a sample screenshot where the Chapter (still image/video or image) is displayed on a monitor for the end-user to review under the Use Case “Commercial Service Confirmation-Driver Initiated”. The Service Confirmation is initiated by waste vehicle driver pursuant to a service confirmation request. Thereafter, the Service Confirmation (including a still image and/or video) is sent to Customer Service, Operations and the Customer via email and text. The image and/or video can be captured with Lat/Lon and Customer Information, and email and/or text can be sent to Customer Service, Dispatch, and the District to designate issue with Driver/Ops. A Report can be created and sent to the District for DMs/RMs to coach the driver.

The image in FIG. 26 is a sample screenshot where the Chapter (still image/video or image) is displayed on a monitor for the end-user to review under the Use Case “Commercial Bin Delivery-New Customer”. The Bin Delivery is initiated by bin delivery driver by selecting a button on the OBC and DVR with the bin delivery confirmation (including still image and/or video) being sent to Customer Service, Operations and the Customer via email and text. Additionally, the bin delivery driver establishes a verified service address through latitude/longitude by confirming delivery through the OBC and DVR.

The image in FIG. 27 is a sample screenshot where the Chapter (still image/video or image) is displayed on a monitor for the end-user to review under the Use Case “Commercial Bin Delivery-Existing Customer”. The Bin Delivery, Swap, Repair and/or Removal is initiated by bin delivery driver by selecting a button on the OBC and DVR with the bin delivery/swap/repair/removal confirmation being sent to Customer Service, Operations and the Customer via email and text. Additionally, the bin delivery driver establishes a verified service address through latitude/longitude by confirming delivery through the OBC and DVR.

FIG. 28 , Picture A is a sample screenshot where the Chapter (still image/video or image) is displayed on a monitor for the end-user to review under the Use Case “Residential Overloaded Container”. Picture B in FIG. 28 depicts the determination by the end-user that the container/bin is overloaded. As a result, the image is tagged resulting in a highlighted “red-box” (or other designation) around the perimeter of the image. A selected image based on Overloaded status results in a “Red” Box and a Report being sent for Residential Overage. Depending on the franchise, customer may also be sent a warning and/or charge. All Residential Overloaded Containers can be viewed from, e.g., the MSW Route Right Side Camera. After reviewing images associated with a Use Case, the end-user “Submits” the image for action to include charging the customer for the overage, notifying the customer of the overage through a proactive warning and notification process and noting the overage incident on the customer's account.

FIG. 29 , Picture A is a sample screenshot where the Chapter (still image/video or image) is displayed on a monitor for the end-user to review under the Use Case “Residential Parcel Data Audit”. The absence of customer information results in an exception report being created as a suspect account for Billing to review further. If Residential container service appears in the Residential Parcel Data Audit, this might result from a homeowner purchasing a home with a waste container in the garage and failed to contact the waste service company to set up service. Unfortunately, the homeowner may have acquired a container improperly or a customer was improperly setup for service by the waste service company resulting in insufficient routing information. Residential Parcel Data Audits can be performed on a daily basis with a Report sent to Billing to determine if the Customer is in Mid America System. If not, the Customer is sent a notice and added to Billing and Routing. This eliminates the need for Corporate sponsored Parcel Data Audits and field audits by Pricing, Public Sector Solutions, Ops and other 3rd Parties used to accomplish Parcel Data Audits.

FIG. 30 , Picture A is a sample screenshot where the Chapter (still image/video or image) is displayed on a monitor for the end-user to review under the Use Case “Residential Service Level Audit”. Picture B in FIG. 30 depicts the determination by the end-user that the customer is receiving service inconsistent with the customer information associated with Picture A. As a result, the image is tagged resulting in a highlighted “red-box” (or other designation) around the perimeter of the image. Because of highlighting the image, Drop-Down Menus allow the end-user to select the size and quality of commercial containers by sub-LOB (MSW, Recycling, Green Waste) at the service address. After reviewing images associated with the Use Case, the end-user “Submits” the image for action to include notifying Billing and the Customer of the service level discrepancy resulting in either an additional charge or refund.

FIG. 31 , Picture A is a sample screenshot where the Chapter (still image/video or image) is displayed on a monitor for the end-user to review under the Use Case “Residential Open Lid”. Picture B in FIG. 31 depicts the determination by the end-user that the residential container lid is “Open”. As a result, the image is tagged resulting in a highlighted “red-box” (or other designation) around the perimeter of the image. After reviewing images associated with a Use Case, the end-user “Submits” the image for action to include notifying and/or charging the customer for an open lid and noting the open lid incident on the customer's account. Selection based on Open Lid results in a “Red” Box and a Report being sent for Residential Open Lid and either a charge or notification. Open Lids contribute to increased disposal cost, litter and other service issues.

FIG. 32 , Picture A is a sample screenshot where the Chapter (still image/video or image) is displayed on a monitor for the end-user to review under the Use Case “Residential Damaged Containers”. Picture B in FIG. 32 depicts the determination by the end-user that the container is damaged requiring repairs, swap or removal. As a result, the image is tagged resulting in a highlighted “red-box” (or other designation) around the perimeter of the image. Because of highlighting the image, Drop-Down Menus allow the end-user to select the container sub-LOB (MSW, Recycling, Green Waste) and noted damage including, but not limited to, broken lid, broken wheel(s), body damage, space bar, graffiti, needs stickering, etc. After reviewing images associated with the Use Case, the end-user “Submits” the image for action to include notifying Operations and the Customer of the need for container repair scheduling.

FIG. 33 , Picture A is a sample screenshot where the Chapter (still image/video or image) is displayed on a monitor for the end-user to review under the Use Case “Residential Franchise Requirements”. Picture B in FIG. 33 depicts the determination by the end-user that the container does not meet certain franchise requirements. As a result, the image is tagged resulting in a highlighted “red-box” (or other designation) around the perimeter of the image. Because of highlighting the image, Drop-Down Menus allow the end-user to select the franchise requirement deficiencies including, but not limited to, signage (e.g., residential), city designation, notices, container color, waste service company name and telephone number, permissible items allowed in SS and Green Waste Services, etc. After reviewing images associated with the Use Case, the end-user “Submits” the image for action to include notifying Operations of the need to comply with franchise and regulatory requirements.

FIG. 34 , Pictures A and B are sample screenshots where the Chapter (still image/video or image) is displayed on a monitor for the end-user to review under the Use Case “Residential Extra Bags-Extra Service”. FIG. 34 depicts the determination by the end-user that the residential customer is setting out Extra Bags or receiving Extra Service either through a municipal franchise system or through subscription service. Whether the service is at no charge, the customer is allowed “X-number of bags per calendar year or the customer is charged per bag, the extra bags-extra service is tracked. As a result, the image is tagged resulting in a highlighted “red-box” (or other designation) around the perimeter of the image. After reviewing images associated with the Use Case, the end-user “Submits” the image for action to include notifying Billing and the Customer of the Extra Bags-Extra Service. This eliminates tagging requirements and the need to send coupons to Customers.

The images in FIG. 35 include sample screenshots where the Chapter (still image/video or image) is displayed on a monitor for the end-user to review under the Use Case “Residential Proactive Customer Notification”. The images in FIG. 35 depict the determination by the end-user that the customer service address has service related issues associated with open lids, container spacing, overloaded container, contamination, trash outside the bin, face front of container away from bin, street parking on the day of service, etc. As a result, the images can be tagged resulting in a highlighted “red-box” (or other designation) around the perimeter of the image. Because of highlighting the image, Drop-Down Menus allow the end-user to select the Proactive Customer Notifications. After reviewing images associated with the Use Case, the end-user “Submits” the image for action to include notifying the customer of the need to comply with waste service company's service requirements.

The images in FIG. 36 include sample screenshots where the Chapter (still image/video or image) is displayed on a monitor for the end-user to review under the Use Case “Proactive Residential Driver/Ops Notifications”. The images in FIG. 36 depict the determination by the end-user that the customer service address has service failure related issues associated with the driver failing to leave container upright, litter, open lid after service, carts askew, etc. As a result, the image can be tagged resulting in a highlighted “red-box” (or other designation) around the perimeter of the image. Because of highlighting the image, Drop-Down Menus allow the end-user to select the Proactive Driver/Ops Notifications. After reviewing images associated with the Use Case, the end-user “Submits” the image for action to include notifying Operations of the need for the driver to comply with waste company's service requirements.

The image in FIG. 37 includes a sample screenshot where the Chapter (still image/video or image) is displayed on a monitor for the end-user to review under the Use Case “Residential Service Confirmation-Driver Initiated”. The Service Confirmation is initiated by waste vehicle driver pursuant to a service confirmation request. Thereafter, the Service Confirmation is sent to Customer Service, Operations and the Customer via email and text. As noted in the earlier filing, the image is date and time stamped verifying the date and time of the service confirmation.

The image in FIG. 38 includes a sample screenshot where the Chapter (still image/video or image) is displayed on a monitor for the end-user to review under the Use Case “Residential NOT-OUT-Driver Initiated”. The driver, upon arriving at a residential service address, determines the container is Not-Out and unavailable for service. The driver selects the Not-Out button on the OBC and DVR resulting in a Chapter or still image. The Not-Out image is sent to Customer Service, Operations and the Customer via email and text. As noted in the earlier filing, the image is date and time stamped verifying the date and time of attempted service. This can eliminate the ongoing debate of whether or not the Residential Container was “OUT” or “NOT OUT.” Images are captured in real-time and sent to Customer Service.

The image in FIG. 39 includes a sample screenshot where the Chapter (still image/video or image) is displayed on a monitor for the end-user to review under the Use Case “Residential Container Delivery-New Customer”. The Container Delivery is initiated by container delivery driver by selecting a button on the OBC and DVR with the container delivery confirmation (including a still image and/or video) being sent to Customer Service, Operations and the Customer via email and text. Deliveries are captured in real time. Additionally, the container delivery driver establishes a verified service address through latitude/longitude by confirming delivery through the OBC and DVR.

The image in FIG. 40 includes a sample screenshot where the Chapter (still image/video or image) is displayed on a monitor for the end-user to review under the Use Case “Residential Container Delivery-Existing Customer”. The Container Delivery, Swap, Repair and/or Removal is initiated by container delivery driver by selecting a button on the OBC and DVR with the container delivery/swap/repair/removal confirmation (including a still image and/or video) being sent to Customer Service, Operations and the Customer via email and text. Additionally, the container delivery driver reestablishes a verified service address through latitude/longitude by confirming delivery through the OBC and DVR. Swaps, repairs, and removals are captured in real-time with image sent to the Customer, Customer Service and Operations.

FIG. 41 includes a sample screenshot where the Chapter (still image/video or image) is displayed on a monitor for the end-user to review under the Use Case “Residential Bulky Collection (Flatbeds & Rear Loaders)”. FIG. 41 depicts the determination by the end-user that the residential customer is receiving Bulky Collection service either through a municipal franchise system or through subscription service. Whether the service is at no charge, the customer is allowed “X-number of yards, bags, appliances and/or other Bulky Waste”, the Bulky Waste is tracked. As a result, the image is tagged resulting in a highlighted “red-box” (or other designation) around the perimeter of the image. After reviewing images associated with the Use Case, the end-user “Submits” the image for action to include notifying Billing and the Customer of the Bulky Pick-Up. Bulky collections are captured in real-time with items and quantity being recorded for allotment, overages and additional charge.

The image in FIG. 42 includes a sample screenshot where the Chapter (still image/video or image) is displayed on a monitor for the end-user to review under the Use Case “Residential Contamination of Single Stream Recycling and Organics”. After reviewing some length (in this case, 16 seconds) of video image in Video A-Hopper Camera Video Image, FIG. 42 depicts the determination by the end-user that the residential customer has either contaminated its single stream recycling container or organics container with prohibited waste. A Front Camera Still Image depicts the customer's service container prior to service. As a result, the video and still image can be tagged resulting in a highlighted “red-box” (or other designation) around the perimeter of the images. After reviewing images associated with the Use Case, the end-user “Submits” the video and still image for action to include notifying Operations, Billing and the Customer to reduce contamination and ensure compliance with waste company's service requirements.

The image in FIG. 43 includes a sample screenshot where the Chapter (still image/video or image) is displayed on a monitor for the end-user to review under the Use Case “Residential Ancillary Fee Audit”. After reviewing some length (in this case, 30-60 seconds) of video image from the Front Camera depicted in Video A, FIG. 43 depicts the determination by the end-user that there are ancillary services being provided to the waste company's customers without the customer being charged for ancillary services. As a result, the video and still image can be tagged resulting in a highlighted “red-box” (or other designation) around the perimeter of the images. After reviewing images associated with the Use Case, the end-user “Submits” the video and still image for action to include notifying Billing and the Customer resulting in either an additional charge or refund.

The images in FIG. 44 include sample screenshots where the Chapter (still image/video or image) is displayed on a monitor for the end-user to review under the Use Case “Residential Dangerous Stops”. After reviewing some length (in this case, 30-60 seconds) of video image from the Front Camera depicted in Video A, FIG. 44 depicts the determination by the end-user that there exist dangerous conditions within the customer's service location. As a result, the video and still image are tagged (Video B) resulting in a highlighted “red-box” (or other designation) around the perimeter of the images. After reviewing images associated with the Use Case, the end-user “Submits” the video and still image for action to include notifying Sales, Operations and the Customer to ensure the unsafe stop is corrected.

The images in FIG. 45 include sample screenshots where the Chapter (still image/video or image) is displayed on a monitor for the end-user to review under the Use Case “Residential Property Damage”. After reviewing some length (in this case, 30-60 seconds) of video image from the Front Camera depicted in Video A, FIG. 45 depicts the determination by the end-user that there servicing of the residential customer's container resulted in property damage. As a result, the video and still image are tagged (Video B) resulting in a highlighted “red-box” (or other designation) around the perimeter of the images. After reviewing images associated with the Use Case, the end-user “Submits” the video and still image for action to include notifying Operations, Safety, Risk Management and the Customer to ensure the property damage is corrected.

The images in FIG. 46 include sample screenshots where the Chapter (still image/video or image) is displayed on a monitor for the end-user to review under the Use Case “Waste Service Fleet Soiled Windshields, Inoperable Wipers/Cameras”. During the process of reviewing Use Cases and otherwise managing the system in real-time, end-users are tasked with ensuring optical sensors are capturing images unobstructed or the optical sensors are operating unabated and continuously recording images. FIG. 46 depicts the determination by the end-user that there are visual or mechanical obstructions resulting in poor quality recordings. As a result, the video and still image are tagged resulting in a highlighted “red-box” (or other designation) around the perimeter of the images. After reviewing images associated with the Use Case, the end-user “Submits” the video and still image for action to Operations and Maintenance to ensure the video recording obstructions and deficiencies are corrected. Images and videos are viewed on a regular basis to ensure quality. Notice is sent to take action to clean windshields and camera lenses.

FIG. 47 depicts a report screen within Events to Review which provides a process to monitor unavailable images (video and still) under the Use Case “No Image-Heath Assessment and Real-Time Monitoring of Cameras”. During the daily startup process and throughout the servicing of waste customers, diagnostic efforts are continuously performed to ensure Chapters are being created on the continuous video feed and images are available for review by the end-user. FIG. 47 depicts a report with the notation for each Chapter, “Missing Picture”. As a result, Operations and Maintenance are immediately notified to troubleshoot the deficiency and take corrective action. Health Assessment is run on each OBC, DVR and Optical Sensor to ensure images are being captured and the System is operational for each truck. Immediate action can be taken to ensure uptime is accomplished. Each District is likewise responsible for ensuring the System is operational for each truck as well.

In certain illustrative embodiments, within the Events to Review process and management of Use-Cases facilitated by the end-user, FIG. 48 depicts the flowchart-decision process for reviewing Chapters within the Events to Review portal. The process is followed for each Use-Case as determined by the waste service company in managing its service requirements and customer expectations.

In certain illustrative embodiments, the system and method provide an end-user and/or auditor with the ability to review videos and still images, identify, tag (with a red box or other tagging means) and submit to Advanced Reports or such other reporting methods. A sample of the Advanced Reports are depicted in FIGS. 49-55 , which are available for one or more of Operations, Billing, Customer Service, Sales, Safety, Risk Management and ultimately the Customer in the form of a communication (including still images and/or video), proactive notification and/or billing adjustment.

Below is a non-exhaustive listing tied to Use Cases, which are submitted and available in Advanced Reports with such instances relating to one or more of the following occurrences and Use Cases:

(a) Commercial, Residential and Industrial waste services for user customer services;

(b) Overloaded waste containers in all lines of business (commercial, residential and industrial);

(c) Contamination of source separated containers (e.g., residential green waste, residential single stream, commercial recycling and commercial organics);

(d) Open Lids in all lines of business;

(e) Container spacing;

(f) Waste outside the container, bin and roll-off box;

(g) Proper container and bin placement;

(h) Prohibited and contaminated waste;

(i) Damaged containers (e.g. broken lids, broken wheels, sleeve damaged, bottom rusted out, graffiti, needs stickering, missing lids, crack container, leaking container, etc.);

(j) Service Confirmations-Driver Initiated;

(k) HOC or Haul or Call-: Customer accounts, which are unserviceable due to the container or bin being inaccessible, blocked, locked or containing prohibited waste (e.g. contamination, universal waste, electronics, etc.);

(l) Dangerous Stops or Hard to Service Stops;

(m) Property Damage;

(n) Bulky Pick-Up;

(o) Ancillary fee audit with ancillary services defined by User;

(p) Open market sales opportunities, for example, an incentive based program where end-user drivers identify open market competitor containers within User's service area and captures images from the optical sensors, OBC and DVR and submits images for sales to call on opportunities to convert to User.

(q) Competitors poaching or infringing on User's franchise business within franchised municipal services;

(r) Bin Delivery, Swaps and Removals for New or Existing Customers;

(s) Service Level Audits including container size, number and service frequency;

(t) Determination of services being provided to non-User customers;

(u) Franchise Requirements (Signage, City Designations, Notices, Etc.);

(v) Proactive Customer Notifications as defined by User;

(w) Proactive Driver Notifications as defined by User; and

(x) Such other Use Cases as defined by User.

In certain illustrative embodiments, the system and method provide a user and/or auditor with the ability to operate OBUs, DVRs and user Cameras related to one or more of the following functions:

(a) Soiled Windshields/Inoperable Wipers/Camera Position;

(b) Defective Triggering Events (proximity switches and other mechanical devices);

(c) No Camera image available;

(d) Pre-defined Heath Assessment Reports related to User's use of the OBU, DVR and User cameras; and

(e) Such other diagnostic capabilities to ensure continuous operation and use of the system and method.

In certain illustrative embodiments, the system and method provide an end-user with the ability to capture video and still images of service events as described above and send videos and still images to Customer Services, Operations, Dispatch, such other User designees and to customers directly via US Mail, web-address, email and text.

In certain illustrative embodiments, a method is provided of managing service and non-service related activities associated with a waste collection, disposal and/or recycling vehicle (see FIG. 56 ). For example, OBC and DVR can be activated (including GPS) for continuously monitoring and recording of a waste vehicle. OBC and DVR can be activated upon start-up of the waste vehicle. Routing and customer data can be prepopulated and/or loaded in the OBU. A system health assessment can be generated to ensure operability, e.g., optical sensors, OBU and DVR operating. The optical Sensors can be activated and begin continuously recording video onto the OBC and DVR. The waste driver can begin his route. One or more chapters can be created on the recordings based on automated Triggering Events. The Triggering Event may include, for example, arm lift, hopper activation, etc. One or more Chapters can also be created on the recordings based on driver initiated events and/or on external signals. The Chapters can be converted to discreet images (video and still) within the recording and loaded onto a viewing portal designated for events to review. One or more discreet images that are assigned to (i) a latitude/longitude and/or (ii) user customer information assigned to a latitude/longitude can be matched and verified. One or more videos and still images can be transferred to the viewing portal. The images can for example, be in sequential order and/or have a date and time stamp. Within the viewing portal, the end user can select from various drop-down matters relating to the subject matter of videos and still images. For example, the drop-down menus can begin with or include User Name, District/BU and/or Use Case.

In certain illustrative embodiments, a system is provided for managing service and nonservice activities in connection with waste collection, disposal and/or recycling. For example, the system can include a waste vehicle equipped with an onboard board computer (OBC) and digital video recorder (DVR). The waste vehicle can also be equipped with one or more optical sensors. The vehicle can be configured to provide triangulation of customer location for commercial, residential and industrial collections using an OBC linked to GPS, an on-board DVR linked to GPS and other off-the-shelf mapping geo-coding applications to establish latitude/longitude for each customer container, bin, cart and box. One or more optical sensors can be configured to capture continuous video recordings from the time the waste collection truck driver commences the DOT pre-trip inspection at the facility location until the collection waste truck driver returns to the facility location and performs the DOT post-trip inspection. One or more optical sensors can also be configured to the user's OBC, DVR and back office hardware and software system (“System”). One or more optical sensors, while configured to the OBC, DVR & System, can also be configured to a signal or signals emanating from electronic or mechanical devices on the truck which can include, but is not limited to, proximity switches, limit switches, mechanical sensors, electronic control module (ECM), programmable logic computer (PLC), arms, hoppers and/or blades and such other vehicle devices (hereinafter referred to as “Devices”). One or more optical sensors, while configured to the OBC, DVR & System, can also be configured to detect vehicle movement including acceleration, deceleration, g-force, stopping and starting (hereinafter referred to as “Vehicle Movement”). One or more optical sensors, while configured to the OBC, DVR & System, can also be configured to detect a driver initiated triggering event (hereinafter referred to as “Driver Initiated Event”). One or more optical sensors, while configured to the OBC, DVR & System, can also be configured to detect a vehicle initiated triggering event that is external or outside of the vehicle (hereinafter referred to as “External Initiated Event”). One or more of the Devices, Vehicle Movement, Driver Initiated Event, and External Initiated Event (hereinafter referred to as “Triggering Events”) can be configured to the OBC and DVR and can cause a Chapter to be captured on the continuous video recording resulting in a Still Image or up to 60 second Video Clip that is assigned to one or more optical sensors. The Chapters can be configured to associate with a viewing portal for review and can be made available in sequential order based on Date, Time and Truck ID.

In certain illustrative embodiments, a method is provided that involves the use and analysis of one or more of Company information and Customer information. The Company information can include, but is not limited to, Business Unit/Site, Truck ID, Company Code and Route ID, and can be downloaded into the OBC. The Customer locations can include locations of the container/bin/cart/box, and can be assigned a latitude/longitude and downloaded into the OBC. The OBC can contain Customer information including, but not limited to Customer ID, Customer name, Customer address, Customer service levels, Franchise name/Open Market with the Customer information likewise link to the Customer location. The OBC can also contain service requirements assigned to the Customer and waste collection municipal franchise system. Resulting Chapters can be created from the continuous video recording through Triggering Events which are linked/connected to the Company and Customer with each Chapter containing Customer Name, Customer Address, Service Level, Sub-Line of Business, Route ID, Customer Account Number, Franchise Name/Open Market, Service Time and Service Date.

In certain illustrative embodiments, a method of viewing Company information, Customer information and Chapter developed from Triggering Events through the Optical Sensor(s) stored on the OBC and DVR within an Event to Review Portal or Display is provided. A visual display of the Still Image and/or up to 60-second Video Clip can be loaded into the Events to Review Portal and viewable by Use Case and then Business Unit and Truck ID. A visual display can be provided of the Still Image and/or up to 60-second Video Clip with Customer Name, Customer Address, Service Level, Sub-Line of Business, Route ID, Customer Account Number, Franchise Name/Open Market, Service Time and Service Date below the Still Image and/or Video Clip. The end-user can select an Image aligned to a Use-Case resulting in a red-box highlighting the Image. The end-user can also send the Image via web-address, email and/or text to the User's various departments (e.g. Customer Service, Billing, Operations, etc.) and to the Customer. The end-user can also Submit the highlighted image to an Advance Report module for use by the Company.

In certain illustrative embodiments, a method of reviewing Use Cases resulting from Chapters and such other waste service activities and nonservice activities outside of the waste servicing collection vehicle is provided. One or more Use-Cases can be selected from the Events to Review portal. A user can determine if the Images meet the criteria under each of the Use-Cases. The selected Chapter can then be submitted for further review within Advanced Reports.

In certain illustrative embodiments, a method for viewing Advanced Reports and such other Reports resulting from Images from Triggering Events being Submitted from the Events to Review Portal is provided. The end-user can select a series of selected Images from the Events to Review Portal. The selected Images can be made available for further review in the Advanced Reporting screen. The selected Images in the Advanced Reporting screen can be sent to Customer Service, Billing and Operations. The selected Images in the Advanced Reporting screen can also be sent to Customers via US Mail, web-address, email and/or text.

Consideration of Use Cases in management of collection waste services may be categorized or bundled as follows (See FIG. 57 ) with some Use-Cases spanning multiple categories/bundles as set forth in the following categories:

(a) Accuracy in Billing the Customer: A critical component of providing waste services to residential and commercial customers is accuracy in the customer's statement. The system and method of recording service related and non-service related activities outside of the waste collection vehicle allows the end-user to include but not limited to: (i) determine if the waste container or bin is overloaded resulting in the customer receiving additional service beyond the capacity of the container or bin; (ii) determine if the container or bin size, quantity and/or frequency of service is inconsistent with the Customer information in User's system; (iii) determine if the Customer is receiving ancillary services and not being charged or being charged for ancillary services with the same not being provided; (iv) determine if an address is receiving waste collection services and the owner or tenant is not set-up correctly or not being charged in the User's system; and (v) accurately charge for Bulky Pick-ups and Extra Bags/Extra Service.

(b) Management and Education of Customers Regarding Service Requirements: An obligation of the waste service provider is to manage and educate the residential and commercial customer of the waste collection company's service requirements as well as requirements under a municipal franchise system and/or regulatory authority. The system and method of recording service related and non-service related activities outside of the waste collection vehicle allows the end-user to include but not limited to: (i) educate the customer on contamination of recycling and organics including highlighting prohibited items in the container or bin; (ii) educate the customer on closing the container or bin lid to reduce capturing of precipitation, to reduce litter/blight, to reduce unauthorized dumping or use; and, to reduce animals and vermin from intruding the container or bin; (iii) educate the customers on the dangers and hardships associated with overloading a container or bin; and (iv) educate the customer on proper and safe container placement and location as well as the impact of obstructing container or bin access;

(c) Improve Employee and Public Safety: An obligation of the waste service provider is to provide a safe working environment for its employees and its Customers. The system and method of recording service related and non-service related activities outside of the waste collection vehicle allows the end-user to include but not limited to: (i) improve safety and protects its employees and equipment by reducing overloaded containers, which damage equipment, cause collection vehicle fires, cause other property damage from falling debris and otherwise puts its employees at risk; (ii) improve safety by identifying and abating dangerous stops and hard to service accounts, which result in vehicle accidents and employee injuries; (iii) improve safety for our Material Recovery Facility (MRF) employees by reducing contamination in the recycling and organics streams and ultimately MRF sort lines managed and staffed by its employees; (iv) improve safety and reduce vehicle accidents by having safe access to containers and bins; and (v) improve safety by identifying and correcting damaged containers and bins at Customer's service location.

(d) Improved Customer Service: The cornerstone of a successful waste collection provider is providing excellent customer service. The system and method of recording service related and non-service related activities outside of the waste collection vehicle allows the end-user to include but not limited to: (i) proactively notify the customer of waste collection service requirements to ensure safe and efficient waste collection; (ii) proactively notify operations and its driver of the driver's service deficiencies on-route; (iii) demonstrate a container is blocked or unavailable for service and assist the Customer in efforts to receive timely service; (iv) reduce litter/blight, unauthorized use of the customer's bin or container; (iv) demonstrate the Customer's container or bins was “Not-Out” and eliminate disputes between the Customer and Customer Service; (v) educate the Customer on proper recycling and management of waste in each of the containers or bins; and (vi) proactively remove or repair damaged and/or leaking containers and bins.

(e) Operational Improvements: Operational improvements result in more efficient waste collection services and ultimately improved earnings, safety and employee morale. The system and method of recording service related and non-service related activities outside of the waste collection vehicle allows the end-user to include but not limited to: (i) ensure competitors or unauthorized waste collectors are not infringing on waste collectors exclusive franchise within a municipal franchise system resulting in increased revenue, route density and profitability; (ii) prospect open market sales opportunities within the waste collector's service area resulting in increased revenue, route density and profitability; (ii) reduce overloaded containers resulting in less equipment damage, employee injuries and time off-route; (iii) reduce contamination resulting lower disposal cost at MRFs, higher recovery of commodities, lower MRF equipment maintenance and damage; and, reduced employee injuries from exposure to contaminated recycling; (iv) improved route efficiencies by servicing readily accessible containers and bins; and (v) supporting frontline employees by holding Customer to waste collector's service requirements.

Those skilled in the art will appreciate that portions of the subject matter disclosed herein may be embodied as a method, data processing system, or computer program product. Accordingly, these portions of the subject matter disclosed herein may take the form of an entirely hardware embodiment, an entirely software embodiment, or an embodiment combining software and hardware. Furthermore, portions of the subject matter disclosed herein may be a computer program product on a computer-usable storage medium having computer readable program code on the medium. Any suitable computer readable medium may be utilized including hard disks, CD-ROMs, optical storage devices, or other storage devices. Further, the subject matter described herein may be embodied as systems, methods, devices, or components. Accordingly, embodiments may, for example, take the form of hardware, software or any combination thereof, and/or may exist as part of an overall system architecture within which the software will exist. The present detailed description is, therefore, not intended to be taken in a limiting sense.

It is to be understood that the present invention is not limited to the embodiment(s) described above and illustrated herein, but encompasses any and all variations falling within the scope of the appended claims. 

What is claimed is:
 1. A system for utilizing customer information to provide waste or recycling services to the customer with a service vehicle, the method comprising: an optical sensor on the service vehicle and configured to capture a continuous video recording of an area outside of the service vehicle during a waste or recycling service operations period for the service vehicle; a recording device configured to store the continuous video recording from the optical sensor; and a computing device that is operatively linked to the optical sensor and recording device, wherein, upon the occurrence of a pre-defined triggering event, the computing device is configured to: capture a chapter from the continuous video recording that includes the customer location; verify the customer location, wherein the verifying comprises: determining the latitude and longitude of the customer location using a GPS device on the service vehicle, and coordinating the latitude and longitude with service confirmation information collected from the service vehicle and with geo-coding information using a street address for the customer location; associate the chapter with the verified customer location; display the chapter on an electronic viewing portal; and make the electronic viewing portal available for viewing by a user for identifying, based at least in part on the information in the electronic viewing portal, whether the verified customer location is available for providing waste or recycling services.
 2. The system of claim 1, wherein the chapter comprises a still image.
 3. The system of claim 1, wherein the chapter comprises a video clip.
 4. The system of claim 1, wherein the street address for the customer location is a residential street address.
 5. The system of claim 1, wherein the street address for the customer location is a commercial street address.
 6. The system of claim 1, wherein the street address for the customer location is an industrial street address.
 7. The system of claim 1, wherein capturing a chapter occurs based upon a pre-defined triggering event comprising one or more from the group of: (i) a signal or signals emanating from an electronic or mechanical device on the service vehicle, wherein the electronic or mechanical device is one or more selected from the group of a proximity switch, a limit switch, a mechanical sensor, an electronic control module, a programmable logic computer, an arm, a hopper, a blade or a service vehicle device; (ii) a movement of the waste service vehicle, wherein the movement comprises acceleration, deceleration, g-force, stopping or starting; (iii) a driver initiated triggering event; and (iv) a triggering event that is initiated external to or outside of the vehicle.
 8. A method of utilizing customer information to provide waste or recycling services to the customer with a service vehicle, the system comprising: collecting a continuous video recording of an area outside of the service vehicle during a waste or recycling service operations period for the service vehicle, wherein the continuous video recording is captured by an optical sensor on the service vehicle; capturing a chapter from the continuous video recording that includes the customer location; verifying the customer location, wherein the verifying comprises: determining the latitude and longitude of the customer location using a GPS device on the service vehicle, and coordinating the latitude and longitude with service confirmation information collected from the service vehicle and with geo-coding information using a street address for the customer location; associating the chapter with the verified customer location; displaying the chapter on an electronic viewing portal; and making the electronic viewing portal available for viewing by a user for identifying, based at least in part on the information in the electronic viewing portal, whether the verified customer location is available for providing waste or recycling services.
 9. The method of claim 8, wherein the chapter comprises a still image.
 10. The method of claim 8, wherein the chapter comprises a video clip.
 11. The method of claim 8, wherein the street address for the customer location is a residential street address.
 12. The method of claim 8, wherein the street address for the customer location is a commercial street address.
 13. The method of claim 8, wherein the street address for the customer location is an industrial street address.
 14. The method of claim 8, further comprising initiating capture of the chapter based upon a pre-defined triggering event, wherein the pre-defined triggering event comprises one or more from the group of: (i) a signal or signals emanating from an electronic or mechanical device on the service vehicle, wherein the electronic or mechanical device is one or more selected from the group of a proximity switch, a limit switch, a mechanical sensor, an electronic control module, a programmable logic computer, an arm, a hopper, a blade or a service vehicle device; (ii) a movement of the waste service vehicle, wherein the movement comprises acceleration, deceleration, g-force, stopping or starting; (iii) a driver initiated triggering event; and (iv) a triggering event that is initiated external to or outside of the vehicle.
 15. A system for utilizing customer information to provide waste or recycling services to the customer with a service vehicle, the method comprising: an optical sensor on the service vehicle and configured to capture a continuous video recording of an area outside of the service vehicle during a waste or recycling service operations period for the service vehicle; a recording device configured to store the continuous video recording from the optical sensor; and a computing device that is operatively linked to the optical sensor and recording device, wherein, upon the occurrence of a pre-defined triggering event, the computing device is configured to: capture a chapter from the continuous video recording that includes the customer location; verify the customer location, wherein the verifying comprises: determining the latitude and longitude of the customer location using a GPS device on the service vehicle, and coordinating the latitude and longitude with service confirmation information collected from the service vehicle and with geo-coding information using a street address for the customer location, wherein the service confirmation information comprises information provided by a driver of the service vehicle; associate the chapter with the verified customer location; display the chapter on an electronic viewing portal; and make the electronic viewing portal available for viewing by a user for identifying, based at least in part on the information in the electronic viewing portal, whether the verified customer location is available for providing waste or recycling services.
 16. A system for utilizing customer information to provide waste or recycling services to the customer with a service vehicle, the method comprising: an optical sensor on the service vehicle and configured to capture a continuous video recording of an area outside of the service vehicle during a waste or recycling service operations period for the service vehicle; a recording device configured to store the continuous video recording from the optical sensor; and a computing device that is operatively linked to the optical sensor and recording device, wherein, upon the occurrence of a pre-defined triggering event, the computing device is configured to: capture a chapter from the continuous video recording that includes the customer location; verify the customer location, wherein the verifying comprises: determining the latitude and longitude of the customer location using a GPS device on the service vehicle, and coordinating the latitude and longitude with service confirmation information collected from the service vehicle and with geo-coding information using a street address for the customer location, wherein the geo-coding using a street address for the customer location comprises reverse geo-coding; associate the chapter with the verified customer location; display the chapter on an electronic viewing portal; and make the electronic viewing portal available for viewing by a user for identifying, based at least in part on the information in the electronic viewing portal, whether the verified customer location is available for providing waste or recycling services.
 17. A system for utilizing customer information to provide waste or recycling services to the customer with a service vehicle, the method comprising: an optical sensor on the service vehicle and configured to capture a continuous video recording of an area outside of the service vehicle during a waste or recycling service operations period for the service vehicle; a recording device configured to store the continuous video recording from the optical sensor; and a computing device that is operatively linked to the optical sensor and recording device, wherein, upon the occurrence of a pre-defined triggering event, the computing device is configured to: capture a chapter from the continuous video recording that includes the customer location; verify the customer location, wherein the verifying comprises: determining the latitude and longitude of the customer location using a GPS device on the service vehicle, and coordinating the latitude and longitude with service confirmation information collected from the service vehicle and with geo-coding information using a street address for the customer location, wherein the geo-coding using a street address for the customer location comprises parcel data analysis; associate the chapter with the verified customer location; display the chapter on an electronic viewing portal; and make the electronic viewing portal available for viewing by a user for identifying, based at least in part on the information in the electronic viewing portal, whether the verified customer location is available for providing waste or recycling services.
 18. A method of utilizing customer information to provide waste or recycling services to the customer with a service vehicle, the system comprising: collecting a continuous video recording of an area outside of the service vehicle during a waste or recycling service operations period for the service vehicle, wherein the continuous video recording is captured by an optical sensor on the service vehicle; capturing a chapter from the continuous video recording that includes the customer location; verifying the customer location, wherein the verifying comprises: determining the latitude and longitude of the customer location using a GPS device on the service vehicle, and coordinating the latitude and longitude with service confirmation information collected from the service vehicle and with geo-coding information using a street address for the customer location, wherein the service confirmation information comprises information provided by a driver of the service vehicle; associating the chapter with the verified customer location; displaying the chapter on an electronic viewing portal; and making the electronic viewing portal available for viewing by a user for identifying, based at least in part on the information in the electronic viewing portal, whether the verified customer location is available for providing waste or recycling services.
 19. A method of utilizing customer information to provide waste or recycling services to the customer with a service vehicle, the system comprising: collecting a continuous video recording of an area outside of the service vehicle during a waste or recycling service operations period for the service vehicle, wherein the continuous video recording is captured by an optical sensor on the service vehicle; capturing a chapter from the continuous video recording that includes the customer location; verifying the customer location, wherein the verifying comprises: determining the latitude and longitude of the customer location using a GPS device on the service vehicle, and coordinating the latitude and longitude with service confirmation information collected from the service vehicle and with geo-coding information using a street address for the customer location, wherein the geo-coding using a street address for the customer location comprises reverse geo-coding; associating the chapter with the verified customer location; displaying the chapter on an electronic viewing portal; and making the electronic viewing portal available for viewing by a user for identifying, based at least in part on the information in the electronic viewing portal, whether the verified customer location is available for providing waste or recycling services.
 20. A method of utilizing customer information to provide waste or recycling services to the customer with a service vehicle, the system comprising: collecting a continuous video recording of an area outside of the service vehicle during a waste or recycling service operations period for the service vehicle, wherein the continuous video recording is captured by an optical sensor on the service vehicle; capturing a chapter from the continuous video recording that includes the customer location; verifying the customer location, wherein the verifying comprises: determining the latitude and longitude of the customer location using a GPS device on the service vehicle, and coordinating the latitude and longitude with service confirmation information collected from the service vehicle and with geo-coding information using a street address for the customer location, wherein the geo-coding using a street address for the customer location comprises parcel data analysis; associating the chapter with the verified customer location; displaying the chapter on an electronic viewing portal; and making the electronic viewing portal available for viewing by a user for identifying, based at least in part on the information in the electronic viewing portal, whether the verified customer location is available for providing waste or recycling services. 